Method of and means for heating water and other mediums or fluids.



. G. G. BELL METHOD OF AND MEANS POR HEATING WATER AND OTHER MBDIUMS 0R FLUIDS. APPLICATION FILED JAN.27,1913.

1,101,243,` l Patented June23, 1914.

5 SHBETS-SHBET l.

G. G. BELL.

` METHOD OF AND MEANS `POE HEATING WATER AND OTHER MEDIUMS 0R FLUIDS.

` APPLICATION FILED JAN.27, 1913. 1,101,243-, Patented June 23, 1914 6 SHEETS-SHEET Q G. G. BELL. y METHOD OF AND MEANS FOR HEATING WATER AND OTHER MEDIUMS OR FLUIDE. l l APPLIOATION FILED JAN.27, 1913. 1 .101,243`4 Patented June 23, 1914.

5 SHEETS-SHEET 3.

G. G. BELL. METHOD 0F AND MEANS FOR HEATING WATBRAAND THER MEDIUMS 0R PLUIDS.

APPLICATION FILED JAN. 27, 1913.

Patnnea Je 23, 1914.

5 SHEETS-SHEET 41.

G. G. BELL.

A METHOD of AND MEANS EOE HEAT1NG WATER AND OTHER MEDIUMS 0E ELUIDs.

APPLICATION FILED JAN.Z7.

`1 A1An1q1frime 23, 1914.

5 SHEETS-SHEET 5.

rf vfirm) srn'rnsi GEORGE GILBERT. BELL, OF KENSINGTGN, Ell'GLllrlB.

r METHOD or AND MEANS ron Hur-irma Warne ari-nonnina nements To alZfw/Lom it may concern:

Be 1t known that I, GEORGE GILBERT Bann, a subject et the King of Grreat Britain, and

' resident of 28 Addison Mansions, Kensingt0n, in the county of Middlesex, England, have invented new and useful `improvements inthe Method of and Means for Heating Water and other Medi-ums or Fluids, ofb which the following is a specification.

This invention relates to an improved method of and apparatus for heating or boi1- ing water and other media or fluids by electricity, steam, coal gas, oil or other means.

According tothis invention a body of 'water or other fluid is heatedfrom the top downward by applying heat to successive strata or layers of the Water beginning ator near the top, the eat ing automatically transferred toa lower stratum whenever any givef stratum'is sutliciently heatedf. y The Water or other medium is contained in an inclosed tank onreceptacle preferably in communication withI the source et' supply, and heat is applied to the water or other lmedium by means of an electric heating resistance or coil or other appropriate heating means. The heating element is arranged so as to give a fairly uniforrfnumber et then mal units per. hour and if this number of units beimparted, to a certain quantitv of Water, the temperature of the latter will be raised ,a deinite number et degrees, but Whether it Will raise it tothe boiling point depends upon the initial tempera ure of the Water. As the temperature et the u ater supply in town mains varies considerably the same number of thermal units 'which will produce boiling Water in` summer will fail to do so in the winter. Again the loss of heat due to radiation is also a variable quantity due to the variationsin the temperature et the-atmosphere, humidity and other causes', so that to always produce boiling Water, either the number of' heat units must be varied or the temperature of the water supplied to the heating'element must be kept .constant orthe amountv of radiating surface lmust-be varied to suit the changing conditions. The Water t-obe heated is suitably conveyed from the tank or receptacle to the lower end of the heater which is, preferably, mounted at some distance from the bottom of the tank so that the. medium passes through or =over the heating device and emerges at or near thetop of the tank at the required temperature, whence it may be Specicatien oit-Letters Fatent.

` drawn ofi" by an outlet or dra'wet pi Application le. January 2*?, lltlr.'v Serial 15o. 7a4/lts.

consumption. he water is conseoile ti always coldest at the bottom but is gra i heated from vthe top toward the botto? llhe apparatus preferably so cor 'as to reduce to a minimum the beati or to radiation in the upper part of the apparatus, While permitting oi such. heat nloss Vto a largerextent toward the bottom of t7 apparatus for the purpose of permittl x' .apparatus to be left untouched for length of time 'without accident or i venience due te m'erheatinea The eilt tained is that irn only the upper su ,layers of water het, no appreciafL i of heat will ensue, but as heat is stantly stored in the water, the t reached when the vwhole of the i" be at or near boiling point, and a rama/a ing surface is suitably increased in toward the bottom oit the tank, the incr ofA heat loss, 1 due to radiation, beer nes greater so that if the electric curre heating device be left operating'v 'for time vwithout any water being drawn a point is reached whenthe heat losses balance the heat added, with the resul no accident Will happen, nor will sul steam be generated to force the ivater tothe supply tank, but the store of.' boiling or other suitable temperat still be maintained and the elV apparatus at its 'normal Werl-ting not be interfered with. The an, a: also lpreferably so constructed t l ume of the upper stratum or lay in the tank is much smaller than of the lower strata or layers, and the tank is for this purpose-so form-'cf be et' small dimensions at the, top and l at tlie; bottom and moreover the het ir ingmaterial'is preferably thickf1`V and thipnest at the bottom to ir losses by radiation shall be leas" i where normally the water is hol Water at the bottom being hea'n through the layers above it, and t of course much cooler than the str; layers above, whiehincrease in tempo-rata. the nearer they are to the top. l rThe water may conveniently duced to the heater from the straf4 layer ot Water having a suitabletemperatu for heating, through' an inlet the position which is automatically regulated by proa liti:

Ying, for example, a float in a float chamber in connection with the tank, suoli float chamber being normally filled with water, in which case the upper end of the float extends to thetop of the float chamber. When, however, the temperature of the upper part of the body or" water rises above boiling point, steam is produced and a certain amount of the water displaced thereby is forced back to the supply tank or elsewhere, the lioat falls with the water in the float chamber and means are provided in connection with the float for causing the inlet of the f'ater to the heater to be lowered in the tank with the result that the water supplied to the heater comes from a lower and consequently cooler stratum or layer and the heated water delivered preferably at the upper end of the tank is of a lower temperature than that last delivered. By this moans it is possible to maintain a uniform temperature of water in the layer or stratum ready to `be discharged irrespective 01"' the amount of heating energy consumed, although naturally the depth of such stratum or layer and consequently the bulk of such water varies according to the amount of heat supplied. In order to prevent the float. from becoming unduly depressed owing to the accumulation of air in the iioat chamber, a pipe is employed which passes from the upper end of the float chamber to the draw-ott pipe, so that as soon as the drawottl cock is opened any air in the float chainber passes away with the boiling orhot water at once, or the float chamber may beppie vided with an air valve which may bc opened when required. OI' the heat-ing at the desired stratum or strata may be carried out automatically in any other convenient manner. l

Where it is desired to use this system of heating torl central heating purposes, in which case the temperature of the water may be lower than that of boiling water, for example 1600 F., a subsidiary heating circuit is employed rising from, at or near where the water passes out from the upper end of the water coil heated as aforesaid and thence to the upper end of the float chamber, so that a small percentage only of the water passing through the primary heating` circuit shall pass into this subsidiary circuit where it is heated before it reaches the upper end of the fioat chamber, the latter then being supplied from the subsidiary circuit with a small amount of boiling water producing steam, causing the iioat to descend `bringing the inlet, connected to the float (and admitting water to the primary heating circuit), into a lower stratum or layer of cooler water and thereby increasing thexbulk of water heated, but at a lower temperature and below that ot boiling.

It dash ed and in the event of objection being taken; to the use of water, (which may have been at boiling temperature for some time) tor making tea or for other purposes, the apparatus may be provided in addition with a coil through which fresh water is passed as required and boiled by the heat supplied `from the surrounding water in.

vided with a jacket or lagging b or otherv appropriate means for preventing loss of heat by radiation and convection and with an inlet pipe c at the bottom in connection with a supply tank, cistern or other source of fluid supply. In the lagging or heat nonconducting material there is a space c for the reception or' a coil of pipe (i or the like which is to be heated by electricity 01 otherwise and the lower end of which coil is in connection by means ot a flexible pipe conncetion c1, made of or covered with heat insulating material, or by any other suitable connection, with the tank at a point bctween the upper and lower ends thereof. rThe lower end ot the flexible pipe c1 suitably fits on to a plug c2 of metal or other appropriate material hitting into a flanged hollow plug c ot' lignuni vitre or other heatnonconducting material. This hollow plug c is also suitably screw-threaded externally to take a nut c and a piece of packing c5 is compressed in place by agland c to insure a watertight joint, or any other appropriate device may be employed. The upper end of the coil of pipe (Z opens into a space or conduit f connected on the one hand with the interior of the tank at the top thereof, and on the other hand with the outlet or delivery pipe g from whence the supply of hot water or other medium is taken and assuming that the apparatus be used for obtaining hot water the coil ot pipe is heated for example by an electric heating resistance or coil It of known construct-ion supplied with electric current. The space in the tank at the top into which the water coil opens is moreover provided with a non-return valve 2' to the tank so that when water is drawn ott, it cannot pass from the tank 0 except through the heated coil of pipe al.

In the event of employing a float to regir late the position in. the tank of the inlet to the coil, the tank has at the upper cud a vertical hollow extension which is covered with a jacket Z of heat non-coiiducting inaferial. 'lll extension 7^/ may be cylindrical or prisma'tic to form a iioat chamber and a float m .is put therein which oat, when the Jrs then about level tenir) has connected 'thereto the 'pipe el '-liicli is flexible or jointed. With fin-open end the other end of the pipe is connecte heet ii'isulefed lower end orf the coil i pige (l which. ic heated oy the electric heating' resistatnee or coil 7L es aforesaid. lt is, how ever, obvious that the heating coil (Z may he hee/,ed by e.V lnine, si. furnace or in any other convenient manner ont preferably he* sonic ineens which, does not require inncln ii' any, attention. rihe upper end of the chamber il: is suitably provided Wi th safety valve n to allow of the escape oi steam shore e determined pressure if necessn* y, and it is inore-oiel preferably provided with a smell pipe or conduit suitably inclosed Within the jeclreting or lagging Z end. extending into the conduit f" leading `to th draw-oil or deliveryy pine g so that any sir or steam which may he present in the top of the :doet cheniher niej! escape when water is drawn fn event of the Hoet m seing forced ard9 owing to the presence of steam ine togo of ine float chamber 7n, se;T to "che dotted position showrn it is obvious that the miner end of the pipe el is also lowered cooler stratum of weter from which npply oi water to the hentingcoil is to elfen;

action is :is follows TnWhen the heating element la is stmted by switch ing on the electric cnrrenh the whole ofA the waiter in the tank d is et the seme temperature say 40" The e'liect ci t "L ins' the ng element is to reise the teni peinture f the Writer in tr listing to cause the, to ifciilee.

water is del Tered e space t j? and es long :is writer is not heilig ein ln olii), the heated is delivered into' the top of the teilt a. pest The ilon i i end censeur Y. nipe c1 is l e 1 1 y rn 'n l roo or tenir. ihe nemek the top oi the clisinhe .f whole of t"r 'veter on n. level i ihle pipe the seine inl-e" is raised to teni- GGO. The result is that now l" enters the pipe ei system around cor the result heilig *het tne . ,i culatinga wete e. o

the circulatory system, ruste J and so on until Water esi whileeinerg from the heating' ooi-l d' and if this E1 is lie boiling-` pointdue to the fact that the Whole of the water' in the tank is under a slight pressure say 2 lbs. tothe square inch, ni little steam will he formed. Present-'ly the Whole oi' the Water in the top ,of the tank and the loe-t chamber Wil-l loe raised to 220 l?. and any addition t-otl'iis temperature will compared' with the aren of the tank, the

of the pipe c and obviously as theinlet of the flexible pipe el is lower/ed into` si regio-n or stratum of colder Water so that' no more steam is formed in the circulatory' system andthe posit-ion of the float remains as it is until 'the new stra-tum of Water' is also raised to boiling point whereupona more 'saine-result as heitere. This process is repeeted until e time is reached When the amount of boiling Water is so large that appreciable losses of heet due to radiation hegin to trike placel and these losses of heet equal the amount of heat transferred by the lient: element sov that. the float remains practically motionless and just that amount' of steein is maintained in.k the float chamber as is necessary to lreep thedoat in such a position that the inlet to the flexible pipe e1 is in the lower stratum of Water so as to keep tliewhole bull( of Water et the boiling' point out ohifionsly and as before described one does not have to mit for :i supply of boiling ws'er untily the Whole bulk approaches that temperstere?Y enough for ordinary requirements heinex maintained at the 'top of the yrenh While the lower strate of water therein may relatively cold. l

'When boiling Water is drawn oil the str, in et the top o the tank is also released fi ofi1 the discharge cock-et g, .is-admitted et the bottom to re q tly the; inlet to the'exihle pipe el is et 'the highest possible leve-lend een only sink after -more steam is 'llorrned The iresh water admitted' and forming the' lowest strntnn ir the trink is practically unedeeted the he.. ing or et all events is not heated until such time the strate. of Water above it here been heated or it is only heated by eration from the Water above it.v At the the the apps-rams man still be deliver boiling water if the demand has not been etreordinary even although the huilt of the water may be below the oleee that dreWne', the ioatmrises conse.

ioo

Vrial decreases in thickness toward the botA `able degree. It is, however, obvious that it ,g is connected by a pipe a to the upper end cooler stratum of water in the tank [a there- 4: anni,

boiling point, while in the case ot a tank heated in the usual way at the bottom there would then probably be lukewarm water forthcoming. Assuming .that the supply of heatbe continuous, it vfollows that in the morning or after a feriod when no hot water has been drawn'o atall, the tank is Jfull or nearly full of boiling water which is maintained more or less at that temperature according to the amount and the frequency of the withdrawals.

As shown in Fig. 2 the upper part of' the tank a is'ot much smaller dimensions than the lower part of the same, and the thickness of the heat non-conducting jacket o is much greater at the top than at the lower end while the bottom p may be entirely uncovered or only thinly covered, so that a considerable amount of radiating surface is available, should the lower Stratum of the water in the tank a become heated to an undesirdesired the tank a, may be cylindrical and the insulating material Z) thicker near the i top than it is at the bottom. On the other hand, however, a tank oit this coned i'ormal tion may be covered with a uniform thickness of insulating material, and a similar result vis obtained due to increase oit superficial area below. ln the example shown, it is clear that the loss of heat due to radiation must be exceedingly small at the top but the losses increase as the bottom is approached, because the supcrlicial area of the tank increases and the heat insulating matetom. Owing to the coned sha pe ot the tank a, the water forming a stratum of any given depth or thickness at the top of the tank is manifestly of much smaller volume than any similar stratum nearer the bottom. The rcsult obtained is that a very small body ot water is kept at boiling point near the top and when discharged at g is easily replaced by a similarouantity of water heated in passing through the heating. coil al.

' If it be desired to use the apparatus for heating rooms and for supplying hot, but not boiling, water from a central point7 the upper end of the 'wa-ter coil (Z has connected thereto acoil of pipe y provided with a heater of any suitable construction such as, for example, an electric heating` resistance or coil i", and the other end or" the pipe coil of the float chamberl.l with the result that if the temperature' of the water delivered by the main coil tothe coil l] and thence to the loat chamber is raised to boiling point, steam is produced, thereby displacing water in the float. chamber causing the iioat fm, to sink and to cause the open cnd ot the VlietiA ble or jointed pipe c1 tc sink to a lower and by increasing,T tho bulk of water heated and -ot water above the plate. new volume of water is raised to boiling allowing 'for circulation of warm water through a system of piping in the house or other place, and in order that the passage of water or steam through the subsidiary circuit may be regulated. according to the temperature required in the stroragc tank there is a cock or valve t tor example in the delivery pipe s. The primary circuit c1 d may also have a valve or cock o operated by a spindle m and handley for regulating the circulation or flow of the medium to be heated and the relative positions of the `doat m and the flexible or jointed pipe e1, leading to the coil d in or surrounding the primary heater may be adjusted or regulated by a screw 2 working in a long nut l adapted to be rotated in the hollow float m by a milled head 2, the screw a being allowed to move in the direction 'ot' its axis but not to rot-ate by means ot' a screw or stud fixed in a lug 4 on the float and projecting into a longitudinal groove 5 in the screw.v The lloat chamber is suitably provided with a removable plug G which on removal permits ot regulating the screw e.

In another construction, as shown in Fig. il, the flexible pipe e* and outside heating coil Z are dispensed with and an electrically heated plate 7, the under surface ot which is preferably covered with heat insulating material 7, is fixed to the lower end of the lioat m. The plate 7 is heated by means of an electric current: with the result that the water above the plate is heated and ultimately boils. Steam consequently collects in the upper part ot the oat chamber and the tioat with thc plate sinks further in the tank thus bringing a larger volume Ultimately this point.; more steam is generated and the plate Yt'urther sinks until the whole of the contents ot the tank L are at boiling point. By this means when starting` the apparatus the hot plate never has more than a thin film of water above it which can bc readily heated. to boiling point and any material addition to that volume -ot hot watcr can only be produced by the sinking ot the llcat whereby the plate is caused to sink into a lower stratum ot' cooler water and raises the tcmpcrature therein.

Ainothcr construction shown in Figs. 4i and 5 con'iprises several electrically heated hotl plates l() iixedly arrangcd one above thc other in the tank (I. These plates on the one hand are conmcted directly to one of the clcctric mains 1 1 through connections l2 and on the other hand are adapted to be connected with thc other o't said 'mains through connections 13, pairs of switch con tacts l-'l arranged on the inside, of the float chamber 7u, and electrically conmctcd switch contacts l5 on the upper cud oi the float m. ll'hcn the lloat fm, is in its initial position as lOO llO

".4 afl 'with the uppermost oii contacts @gement with the contacts. l the e it() in circuit and the of water being' heated. this stra-tum boils, and the upper part ot the i'ioat :t chamber so that the dost d eventually move the conengaeement with the contacts lil and into engagenext pair of contacts le, thus ircuit of the second plate l0. contacts it are suitably of a 'ter than the vertical disodyaccnt of contacts l/l, con Irvcts lo come into engagement i lowest pair of contacts iii learing the contacts le above. 5, loa/t in descending closes the circuits ot ely proceeding down- 'ahum by stratum from above downwai". he dost mi is suitably guided in its moveuts by rollers l5 arranged around the ,t on the inside oi the loatchamber as wi'i'clcsrly in lli 5, and the plates id are 'rally perforated as at 17 orthe passage the lioat when descending or ascendin. lien hot vimiter isl drawn oil through the e j: and tap g, steam and air escape from ne upper end of the float chamber 7c, and

i'ioat m ascends say, to its normal or iniposition.k The successive switching of the current from one plate l0 to the nextlatc however be carried out by means i a thermometer or thermometers operat- .g to close the circuits oi' successive plates the temperature rises and alls in the 7id space of the. tank, or the controlot the heating of the plates may be carried out in any other convenient manner whether it be by electrical or other means.

l rring tofllig. 5, it will be seen that l" i. tanlr c, is cylindrical and the jacket l) ot heat conducting material is thicker at top-than at the bottom so to reduce the "adiation of heat at or near the top to mi `mum, while allowing of a greater heat floss toward the bottom, but it obvious that tank 0i may also be made conical, that of smaller diameter at4 the top and larger at 'the bottom. Moreover this particular construction of apparatus is shown provided f th additional coil, illustrated diagramitically by a zigzag tube 8 but in practice would be made small in diameter and in the form oit a helix with convolutions as together as possible so as to provide greatest superficial area for the heating he water therein contained, by contact f'h the bullr of water in the tanlr The around and around the tank and is drawn the top by the cock 9 so that fresh 2. The method of heating a. body of fluid rom the top downward, which comprises heat-ing the fluid by successive layers beginning approximately at the top, circulating the fluid past a source of heat from a layer and delivering .'duid 'romfsaid layer on top of the body of fluid.

i 3. The method of heating a body of water from the top downward, which comprises :forcing the body or water downward by steam on the surface thereof and circulating Water from below 'the steam space past a source or" heat and into the`steam space, and automatically shifting the circulation Ptrom a higher to a lower level, in accordance with the volume of steam.

4L.. The method of heating a body of fluid, which comprises heating the fluid by successive layers beg-inning substantially at the top, automatically transferring the heat to a lower layer whenever any given layer is4 sullciently heated, and controlling the heating rate by the volume of the layers.

5. The method of heating a body of duid, which comprises heating a body of iiuid in successively lower layers, automatically transferring the heating to a lower layer when any given layer has been sutliciently heated, and controlling the rate of heating by varying both the volume of the layers and the radiation from the fluid.

6. The method of heating a body of fluid, which comprises heating a body of fluid in successive layers, automatically transferring the heat to a lower layer when any given layer is'sufliciently hot, and decreasing the rate of heating from the top downward.

7. The method ot heat-ing a body of fluid, which comprises heating a body of liuid in successive layers, automatically transferring the heating to a lower layer when any given layer is sufiiciently hot, and decreasing the rate of heating from the top downward b v an increasing volume of the layers as well as a decreasing insulation from the top downward.

8. ln a heat-er 'for fluids, the combination l' any given layer is sutliciently heated.

9. in a heater for fluids, the combination- (I tl of a fluid container, heating means for the `fluid and a float operating to bring a lower layer of' fluid under the influence of 'the heating means whenever any given laver is sufliciently heated, substantially as set fertili.

10. ln a heater for fluids, the combination of a fluid container, heating means for the fluid, a float chamber connected with said containe and a float iii said chamber operating to bring a lower layer of fluid under the influence of the heating means whenever any given layer is sufficiently heated, 'substantially as set forth.

11. In a heater for fluids, the combination of a. fluid container, a heating device for the fluid, an inlet to said heating device adjustable as to yheight in said container, an outlet from said heating device leading baci; to said container. and automatic means for n adjusting the position of said inlet to cause fluid from a lower layer to pass there` through to said heating device whenever any given layer is sufficiently heated, substantially as set forth.

12. In a heater for fluids, the comhination of a fluid container, a heating device for the fluid, an adjustable inlet connection leading from said container to said heating device, an outlet leading from said heating device l ack to said container, and automatic, means for adjusting said inlet. connection to cause fluid from a lower layer to vpass therethrough to said heating device whenever any given laver is sufficiently heated, substantially as forth. l

13. In a heater for fluids, the combination of a fluid container, a heating device for the fluid, an adjustable inletl connection leading` from saidcontainer to one end of the heat- .ing device, an outlet connection leading from the other end of said heatingdevice to the top of' the container, and automatic means for adjusting said inlet. connection so as to cause fluid from alower layer to pass therethrough to said heating device whenever any lgiven laver is sufficiently heated, suhstantiallf.7 as set forth.

14. ln a heater for fluids, the combination of a fluid container,la heating device for the fluid, a flexible connection leading from said container to said heating' device, an outlet leading` from said heating device to the top of said container, and automatic iiieans for adjusting said connection so as to cause fluid from a lower laver to nass therethrough to said 'heating device ,whenever any given llayer is sufficiently heated, substantially as set forth.

15. lira heater for fluids, the combination of'a fluid container, a heating device for the fluid,v a flexible heat-insulated connection leiding' freni said container to said heating device. an outlet leading l'roin said heating device to the top of the container, and automatic means for adjusting said. connection so as to cause fluid from a lower layer to pass therethrough to said heating device whenever any `given layer is sufficiently heated, substantially as set forth.

1G. In a heater -for fluids, the combination of a fluid container, a heating device for the fluid, a jointed heat-insulated connection leading from said container to said heating device, an outlet leading from said heating device to the top of said container, and automatic means for adjusting the said connection to cause fluid from a lower layer to pass therethrough to said heating device when-v ever any given layer is sufficiently heated, substantially as set forth.

17. In a heater for fluids, the combination of a fluid container, a heating device for the fluid, a flexible heat-insulated pipe leading from said container to said heating device, a heat non-conducting connection between said flexible pipe and said heating device, an ontlet leading from said heating device to the top of said container and autoinatie-ineans for adjusting the position of, said pipe to cause fluid from a lower layer to passtherethrough to said heating device whenever any given layer is sufliciently heated, substantially as set forth.

18. ln a heater for fluids, the combination of a fluid container, a heating device for the fluid, an adjustable inlet connection leading to said heating device from said container, automatic means for adjusting said inlet connection to cause fluid from a lower layer to nass therethrough whenever any given layer is sufliciently heated, an outlet connection leading from said heating device to said container, a. draw-oft outlet from the fluid container, and a valve arranged in said outlet connectionfor allowing only such fluid to pass through said draw-oft outlet as has passed through the heating deviee, substantially as described.

1li. ln a heater for fluids, the combination ofa fluid container, automatically controlled means for heating the fluid by successive layers from the top downward, and a heat-insulating cover for said container, said cover being thicker at the top of said container than toward the bottom thereof,

forth.

of a fluid container and autonnitically controlled heatingmeans adapted to heat the Fluid layer loy layer from the top downward, said container tapering toward the ton so as to be narrow at he top and wider at the bottom, substantiallyv asset forth. i

Q1. ln a heater for fluids` the coml'lination of' a fluid container, a heating device foi' the fluid, an inlet connection leadingr to said heating device from said container, an outlet connection leading from said heating l device to said container, a float chamber consubstantially as and for the purpose set Q0. ln a heater for fluids, the combination `nected with said container, and a float in said float chamber, said`float being connected with .said inlet connection and being adapted to adjust same so as to cause fluid from a lower layer to pass into such inlet connection and through the heating device whenever any given layer is sufficiently heated, substantially as set forth.

22. In a heater for fluids, the 4combination of a'fluid container, heating means for the fluid, afloat chamber connected with said. container, a float in said chamber and adapted to automatically cause the heating means to heat the fluid by successive layers from the top downward, a draw-off pipe leading from said container, and a release pipe leading from the upper end of said Y yfloat chamber to said draw-off. pipe for allowing the escape of the air and steam present in the float chamber when hot water is drawn off, substantially as set forth.

23. In a heater for fluids, the combination of a. fluid. container, a main heating device for the fluid, inlet and outlet connections between-said main heatin device and said fiuid container, a float c amber connected with said container, a float in said chamber and adapted to adjust said inlet connection so as to cause a lower layer offluid to pass to the main heating device whenever any vgiven layer is sufficiently heated, a subsidiary heating' device, and connections b .Ween said subsidiary heating device and said main heating device and between said subsidiary heating device and the upper end of said float chamber, substantially as and for the purpose set forth.

2li. In a heater for fluids, the combination of a fluid container, automatically controlled heating means for heating the fluid by successive layers from the top downward, and a coil submerged in the fluid in said container for supplying quantities of fresh hot water, substantially as set forth. Y

25. In a heater for fluids, the combination of a fluid container, means for heating' the fluid, a fluid inlet at the bottom of said container,` a fluid-outlet at the top of said container, a float chamber connected with said container and uv float in said chamber adapted when fluid is expelled from said container through'said fluid inlet and the level-of the fluid falls in the float chamber owing. to the presence of vapor in the float chamber, to descend and thus bring a lower layer of fluid under the influence of the heat# ing means, substantially as set forth.

GEORGE GILBERT BELL.

Witnesses:

JOHN H. STOUDWIGK, H. D. JAMESON. 

